EP3245756B1 - Informations d'état de canaux pour agrégation de porteuses améliorée - Google Patents
Informations d'état de canaux pour agrégation de porteuses améliorée Download PDFInfo
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- EP3245756B1 EP3245756B1 EP16703662.3A EP16703662A EP3245756B1 EP 3245756 B1 EP3245756 B1 EP 3245756B1 EP 16703662 A EP16703662 A EP 16703662A EP 3245756 B1 EP3245756 B1 EP 3245756B1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0001—Arrangements for dividing the transmission path
- H04L5/0003—Two-dimensional division
- H04L5/0005—Time-frequency
- H04L5/0007—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT
- H04L5/001—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT the frequencies being arranged in component carriers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
- H04B7/06—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
- H04B7/0613—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station using simultaneous transmission
- H04B7/0615—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station using simultaneous transmission of weighted versions of same signal
- H04B7/0619—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station using simultaneous transmission of weighted versions of same signal using feedback from receiving side
- H04B7/0621—Feedback content
- H04B7/0626—Channel coefficients, e.g. channel state information [CSI]
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- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
- H04L5/0057—Physical resource allocation for CQI
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- H04W72/00—Local resource management
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- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0453—Resources in frequency domain, e.g. a carrier in FDMA
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- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
Definitions
- the following relates generally to wireless communication, and more specifically to channel state information (CSI) for enhanced carrier aggregation (eCA).
- CSI channel state information
- eCA enhanced carrier aggregation
- Wireless communications systems are widely deployed to provide various types of communication content such as voice, video, packet data, messaging, broadcast, and so on. These systems may be multiple-access systems capable of supporting communication with multiple users by sharing the available system resources (e.g., time, frequency, and power). Examples of such multiple-access systems include code division multiple access (CDMA) systems, time division multiple access (TDMA) systems, frequency division multiple access (FDMA) systems, and orthogonal frequency division multiple access (OFDMA) systems, (e.g., a Long Term Evolution (LTE) system).
- CDMA code division multiple access
- TDMA time division multiple access
- FDMA frequency division multiple access
- OFDMA orthogonal frequency division multiple access
- a wireless multiple-access communications system may include a number of base stations, each simultaneously supporting communication for multiple communication devices, which may be otherwise known as user equipment (UEs).
- a base station may communicate with the communication devices on downlink channels (e.g., for transmissions from a base station to a UE) and uplink channels (e.g., for transmissions from a UE to a base station).
- one or more base stations may communicate with a user equipment using multiple component carriers.
- the UE may periodically report CSI for each component carrier, as for example described in US 2011/0319068 A1 . If the number of component carriers is large, the channel state reports may frequently collide, and some of the colliding reports may be dropped. This may degrade the communication link for the UE.
- An eCA configuration with a large number of component carriers (CCs) may include CCs partitioned or organized into CSI reporting groups. Channel state information for the CCs in each group may be reported together. In some cases, individual CC reports may be combined into a single report, and in other cases a single channel state report may contain information related to each CC in the group. The combined reports may be transmitted over an uplink control channel or an uplink data channel, or both. Collisions between reports may be resolved based on the reporting type of the groups or the serving cell indices of the CCs in the group.
- eCA enhanced carrier aggregation
- the CCs may be partitioned or organized into channel state information (CSI) reporting groups.
- Channel state reports for the CCs in each group may be reported together.
- individual CC reports may be multiplexed into a single report and in other cases a single channel state report may contain information related to each CC in the group.
- the combined reports may be transmitted over an uplink control channel or an uplink data channel, or both. Collisions between reports may be resolved based on the reporting type of the groups or the serving cell indices of the CCs in the group.
- Some wireless systems may support CA with up to 5 CCs. However, other wireless systems may support CA with up to 32 CCs, or more. In either case, the CA configuration may be based on a single UL control channel or on multiple UL control channels associated with different SCells. Increasing the maximum number of CCs may enable network operators to more efficiently utilize the available spectrum, which may include unlicensed portions of wireless spectrum.
- CSI may be reported for each CC independently.
- CSI for each CC may be transmitted on PUCCH on a PCell or as a part of UCI on PUSCH.
- periodic CSI reports may be limited to a single report during a given subframe. If two reports collide (e.g., if they are scheduled for the same subframe), a prioritization scheme may determine which report is transmitted. In some cases, the prioritization scheme may be based on the reporting type of the report (e.g., based on whether the report includes CQI, PMI, or RI information). For reports of the same type, prioritization may be based on the serving cell index of the CC being reported. If the number of CCs increases, the likelihood a collision may increase.
- CCs may be grouped for both periodic and aperiodic CSI reports. In other cases, only periodic reports may be combined.
- a reference CC may be selected and the CQI information for other CCs in the group may be represented by delta values relative to the reference CC.
- the reference CC may be semi-statically configured. In other cases, the reference CC may cycle among the CCs in the group.
- different components of the system e.g., base stations, entities within the core network, or the like-may configure groups of CCs for CSI reporting.
- a prioritization scheme for CQI reporting groups may be used to resolve collisions, or when the reporting capacity is exceeded.
- Prioritization among CSI reporting groups can be based on the reporting type of the group. Within a group, the reporting type may be the same across all CCs. In some cases, the reporting type of individual CCs may be used to select groups with the same reporting type. If a collision between two groups with the same reporting type occurs, a secondary prioritization based on serving cell index may be used to resolve the conflict. For example, the group with the smallest serving cell index among the constituent CCs may be reported and the other combined report may be dropped.
- a similar format may be used for a combined report as is used for individual reports.
- PUCCH format 3 may carry up to 22 bits and may include one CSI report multiplexed with acknowledgement/negative acknowledgement (ACK/NACK) and SR fields.
- ACK/NACK acknowledgement/negative acknowledgement
- Systems with a large number of CCs may allow more than one CC CSI report multiplexed in Format 3 to be combined when possible (e.g., if there is no ACK/NACK feedback). However, this may not be sufficient for systems that include very large number of CCs.
- a system may also enable the configuration of a combined report including more than one report (e.g., more than one Format 3 report) to be transmitted simultaneously.
- one report may carry both ACK/NACK and CSI information while other reports in the combined report may carry CSI without ACK/NACK.
- multiple CSI reports may be transmitted in the same subframe.
- combined reports may be configured semi-persistently on either PUCCH or PUSCH.
- CCs for which CSI is transmitted can be explicitly signaled.
- the periodicity of the PUSCH may be configured to match the desired CSI reporting rate.
- HARQ feedback (ACK/NACK) and SR information may also be multiplexed on the PUSCH.
- HARQ feedback on PUSCH may depend on the support of parallel PUCCH/PUSCH channel transmission.
- joint coding may be used for HARQ feedback/CSI/SR on PUSCH.
- a flag may notify a receiving entity of the existence of different information types (e.g., HARQ feedback) in the payload. If any PUSCH resources are unused after HARQ feedback/CSI/SR, regular (non-UCI) data can be transmitted using the excess resources.
- FIG. 1 illustrates an exemplary wireless communications system 100 in accordance with various aspects of the present disclosure.
- the wireless communications system 100 includes base stations 105, UEs 115, and a core network 130.
- the core network 130 may provide user authentication, access authorization, tracking, internet protocol (IP) connectivity, and other access, routing, or mobility functions.
- IP internet protocol
- the base stations 105 interface with the core network 130 through backhaul links 132 (e.g., S1, etc.).
- the base stations 105 may perform radio configuration and scheduling for communication with the UEs 115, or may operate under the control of a base station controller (not shown).
- the base stations 105 may communicate, either directly or indirectly (e.g., through core network 130), with one another over backhaul links 134 (e.g., XI, etc.), which may be wired or wireless communication links.
- backhaul links 134 e.g., XI, etc.
- the base stations 105 may wirelessly communicate with the UEs 115 via one or more base station antennas. Each of the base stations 105 may provide communication coverage for a respective geographic coverage area 110.
- base stations 105 may be referred to as a base transceiver station, a radio base station, an access point, a radio transceiver, a NodeB, eNodeB (eNB), Home NodeB, a Home eNodeB, or some other suitable terminology.
- the geographic coverage area 110 for a base station 105 may be divided into sectors making up only a portion of the coverage area (not shown).
- the wireless communications system 100 may include base stations 105 of different types (e.g., macro or small cell base stations). There may be overlapping geographic coverage areas 110 for different technologies
- the wireless communications system 100 is a Long Term Evolution (LTE)/LTE-Advanced (LTE-A) network.
- LTE/LTE-A networks the term evolved node B (eNB) may be generally used to describe the base stations 105, while the term UE may be generally used to describe the UEs 115.
- the wireless communications system 100 may be a heterogeneous LTE/LTE-A network in which different types of eNBs provide coverage for various geographical regions. For example, each eNB or base station 105 may provide communication coverage for a macro cell, a small cell, or other types of cell.
- cell is a 3GPP term that can be used to describe a base station, a carrier or component carrier associated with a base station, or a coverage area (e.g., sector, etc.) of a carrier or base station, depending on context.
- a macro cell generally covers a relatively large geographic area (e.g., several kilometers in radius) and may allow unrestricted access by UEs 115 with service subscriptions with the network provider.
- a small cell is a lower-powered base station, as compared with a macro cell, that may operate in the same or different (e.g., licensed, unlicensed, etc.) frequency bands as macro cells.
- Small cells may include pico cells, femto cells, and micro cells according to various examples.
- a pico cell for example, may cover a small geographic area and may allow unrestricted access by UEs 115 with service subscriptions with the network provider.
- a femto cell may also cover a small geographic area (e.g., a home) and may provide restricted access by UEs 115 having an association with the femto cell (e.g., UEs 115 in a closed subscriber group (CSG), UEs 115 for users in the home, and the like).
- An eNB for a macro cell may be referred to as a macro eNB.
- An eNB for a small cell may be referred to as a small cell eNB, a pico eNB, a femto eNB, or a home eNB.
- An eNB may support one or multiple (e.g., two, three, four, and the like) cells (e.g., component carriers).
- the wireless communications system 100 may support synchronous or asynchronous operation.
- the base stations 105 may have similar frame timing, and transmissions from different base stations 105 may be approximately aligned in time.
- the base stations 105 may have different frame timing, and transmissions from different base stations 105 may not be aligned in time.
- the techniques described herein may be used for either synchronous or asynchronous operations.
- the communication networks may be packet-based networks that operate according to a layered protocol stack and data in the user plane may be based on the IP.
- a radio link control (RLC) layer may perform packet segmentation and reassembly to communicate over logical channels.
- a medium access control (MAC) layer may perform priority handling and multiplexing of logical channels into transport channels.
- the MAC layer may also use hybrid automatic repeat request (HARQ) to provide retransmission at the MAC layer to improve link efficiency.
- the radio resource control (RRC) protocol layer may provide establishment, configuration, and maintenance of an RRC connection between a UE 115 and the base stations 105.
- the RRC protocol layer may also be used for core network 130 support of radio bearers for the user plane data.
- the transport channels may be mapped to physical channels.
- the UEs 115 may be dispersed throughout the wireless communications system 100, and each UE 115 may be stationary or mobile.
- a UE 115 may also include or be referred to by those skilled in the art as a mobile station, a subscriber station, a mobile unit, a subscriber unit, a wireless unit, a remote unit, a mobile device, a wireless device, a wireless communications device, a remote device, a mobile subscriber station, an access terminal, a mobile terminal, a wireless terminal, a remote terminal, a handset, a user agent, a mobile client, a client, or some other suitable terminology.
- a UE 115 may be a cellular phone, a personal digital assistant (PDA), a wireless modem, a wireless communication device, a handheld device, a tablet computer, a laptop computer, a cordless phone, a wireless local loop (WLL) station, or the like.
- PDA personal digital assistant
- a UE may be able to communicate with various types of base stations and network equipment including macro eNBs, small cell eNBs, relay base stations, and the like.
- the communication links 125 shown in wireless communications system 100 may include uplink (UL) transmissions from a UE 115 to a base station 105, or downlink (DL) transmissions, from a base station 105 to a UE 115.
- the downlink transmissions may also be called forward link transmissions while the uplink transmissions may also be called reverse link transmissions.
- Each communication link 125 may include one or more carriers, where each carrier may be a signal made up of multiple sub-carriers (e.g., waveform signals of different frequencies) modulated according to the various radio technologies described above.
- Each modulated signal may be sent on a different sub-carrier and may carry control information (e.g., reference signals, control channels, etc.), overhead information, user data, etc.
- the communication links 125 may transmit bidirectional communications using frequency division duplex (FDD) (e.g., using paired spectrum resources) or time division duplex (TDD) operation (e.g., using unpaired spectrum resources).
- FDD frequency division duplex
- TDD time division duplex
- Frame structures may be defined for FDD (e.g., frame structure type 1) and TDD (e.g., frame structure type 2).
- base stations 105 or UEs 115 may include multiple antennas for employing antenna diversity schemes to improve communication quality and reliability between base stations 105 and UEs 115. Additionally or alternatively, base stations 105 or UEs 115 may employ multiple input multiple output (MIMO) techniques that may take advantage of multi-path environments to transmit multiple spatial layers carrying the same or different coded data.
- MIMO multiple input multiple output
- Wireless communications system 100 may support operation on multiple cells or carriers, a feature which may be referred to as carrier aggregation (CA) or multi-carrier operation.
- a carrier may also be referred to as a CC, a layer, a channel, etc.
- the term "component carrier” may refer to each of the multiple carriers utilized by a UE in carrier aggregation (CA) operation, and may be distinct from other portions of system bandwidth.
- a component carrier may be a relatively narrow-bandwidth carrier susceptible of being utilized independently or in combination with other component carriers.
- Each component carrier may provide the same capabilities as an isolated carrier based on release 8 or release 9 of the LTE standard.
- Multiple component carriers may be aggregated or utilized concurrently to provide some UEs 115 with greater bandwidth and, e.g., higher data rates.
- individual component carriers may be backwards compatible with legacy UEs 115 (e.g., UEs 115 implementing LTE release 8 or release 9); while other UEs 115 (e.g., UEs 115 implementing post-release 8/9 LTE versions), may be configured with multiple component carriers in a multi-carrier mode.
- the number of component carriers may be limited to 5. However, in other CA configurations a higher number of CCs may be used (e.g., up to 32 or more). A large number of CCs may be part of a next-generation CA configuration known as enhanced carrier aggregation (eCA).
- eCA enhanced carrier aggregation
- An eCC may be characterized by one or more features including: flexible bandwidth, variable length transmission time interval (TTIs), and modified control channel configuration.
- TTIs variable length transmission time interval
- an eCC may be associated with a carrier aggregation configuration or a dual connectivity configuration (e.g., when multiple serving cells have a suboptimal backhaul link).
- An eCC may also be configured for use in unlicensed spectrum or shared spectrum (where more than one operator is licensed to use the spectrum).
- An eCC characterized by flexible bandwidth may include one or more segments that may be utilized by UEs 115 that do are not capable of monitoring the whole bandwidth or prefer to use a limited bandwidth (e.g., to conserve power).
- an eCC may utilize a variable TTI length and symbol duration.
- an eCC may include multiple hierarchical layers associated with the different TTI lengths. For example, TTIs at one hierarchical layer may correspond to uniform 1ms subframes, whereas in a second layer, variable length TTIs may correspond to bursts of short duration symbol periods. In some cases, a shorter symbol duration may also be associated with increased subcarrier spacing.
- Flexible bandwidth and variable TTIs may be associated with a modified control channel configuration (e.g., an eCC may utilize an enhanced physical downlink control channel (ePDCCH) for DL control information).
- ePDCCH enhanced physical downlink control channel
- one or more control channels of an eCC may utilize frequency division multiplexing (FDM) scheduling to accommodate flexible bandwidth use.
- FDM frequency division multiplexing
- Other control channel modifications include the use of additional control channels (e.g., for evolved multimedia broadcast multicast service (eMBMS) scheduling, or to indicate the length of variable length UL and DL bursts), or control channels transmitted at different intervals.
- An eCC may also include modified or additional HARQ related control information.
- a carrier used for DL may be referred to as a DL CC
- a carrier used for UL may be referred to as an UL CC
- a UE 115 may be configured with multiple DL CCs and one or more UL CCs for carrier aggregation. Each carrier may be used to transmit control information (e.g., reference signals, control channels, etc.), overhead information, data, etc.
- a UE 115 may communicate with a single base station 105 utilizing multiple carriers, and may also communicate with multiple base stations simultaneously on different carriers.
- Each cell of a base station 105 may include an UL component carrier (CC) and a DL CC.
- CC UL component carrier
- the coverage area 110 of each serving cell for a base station 105 may be different (e.g., CCs on different frequency bands may experience different path loss).
- one carrier is designated as the primary carrier, or primary component carrier (PCC), for a UE 115, which may be served by a primary cell (PCell).
- Primary cells may be semi-statically configured by higher layers (e.g., radio resource control (RRC), etc.) on a per-UE basis.
- RRC radio resource control
- Certain uplink control information (UCI), e.g., acknowledgement (ACK)/NACK, channel quality indicator (CQI), and scheduling information transmitted on physical uplink control channel (PUCCH), are carried by the primary cell.
- Secondary carriers may be designated as secondary carriers, or secondary component carriers (SCC), which may be served by secondary cells (SCells). Secondary cells may likewise be semi-statically configured on a per-UE basis. In some cases, secondary cells may not include or be configured to transmit the same control information as the primary cell.
- SCC secondary component carriers
- Logical control channels may include paging control channel (PCCH) for paging information, broadcast control channel (BCCH) for broadcast system control information, multicast control channel (MCCH) for transmitting multimedia broadcast multicast service (MBMS) scheduling and control information, dedicated control channel (DCCH) for transmitting dedicated control information, common control channel (CCCH) for random access information, DTCH for dedicated UE data, and multicast traffic channel (MTCH), for multicast data.
- PCCH paging control channel
- BCCH broadcast control channel
- MCCH multicast control channel
- DCCH dedicated control channel
- CCCH common control channel
- DTCH dedicated UE data
- MTCH multicast traffic channel
- DL transport channels may include broadcast channel (BCH) for broadcast information, a downlink shared channel (DL-SCH) for data transfer, paging channel (PCH) for paging information, and multicast channel (MCH) for multicast transmissions.
- UL transport channels may include random access channel (RACH) for access and uplink shared channel (UL-SCH) for data.
- DL physical channels may include physical broadcast channel (PBCH) for broadcast information, physical control format indicator channel (PCFICH) for control format information, physical downlink control channel (PDCCH) for control and scheduling information, physical HARQ indicator channel (PHICH) for HARQ status messages, physical downlink shared channel (PDSCH) for user data and physical multicast channel (PMCH) for multicast data.
- UL physical channels may include physical random access channel (PRACH) for access messages, physical uplink control channel (PUCCH) for control data, and physical uplink shared channel (PUSCH) for user data.
- HARQ may be a method of ensuring that data is received correctly over a wireless communication link 125.
- HARQ may include a combination of error detection (e.g., using a cyclic redundancy check (CRC)), forward error correction (FEC), and retransmission (e.g., automatic repeat request (ARQ)).
- HARQ may improve throughput at the MAC layer in poor radio conditions (e.g., signal-to-noise conditions).
- Incremental Redundancy HARQ incorrectly received data may be stored in a buffer and combined with subsequent transmissions to improve the overall likelihood of successfully decoding the data.
- redundancy bits are added to each message prior to transmission. This may be especially useful in poor conditions.
- redundancy bits are not added to each transmission, but are retransmitted after the transmitter of the original message receives a negative acknowledgement (NACK) indicating a failed attempt to decode the information.
- NACK negative acknowledgement
- the PUCCH may be mapped to a control channel defined by a code and two consecutive resource blocks.
- UL control signaling may depend on the presence of timing synchronization for a cell.
- PUCCH resources for scheduling request (SR) and channel quality indicator (CQI) reporting may be assigned (and revoked) through RRC signaling.
- resources for SR may be assigned after acquiring synchronization through a RACH procedure.
- an SR may not be assigned to a UE 115 through the RACH (i.e., synchronized UEs may or may not have a dedicated SR channel).
- PUCCH resources for SR and CQI may be lost when the UE is no longer synchronized.
- a base station 105 may insert periodic pilot symbols such as cell-specific reference signals (CRS) to aid UEs 115 in channel estimation and coherent demodulation.
- CRS may include one of 504 different cell identities. They may be modulated using quadrature phase shift keying (QPSK) and power boosted (e.g., transmitted at 6dB higher than the surrounding data elements) to make them resilient to noise and interference.
- QPSK quadrature phase shift keying
- CRS may be embedded in 4 to 16 resource elements in each resource block based on the number of antenna ports or layers (up to 4) of the receiving UEs 115.
- demodulation reference signal may be directed toward specific UEs 115 and may be transmitted only on resource blocks assigned to those UEs115.
- DMRS may include signals on 6 resource elements in each resource block in which they are transmitted. In some cases, two sets of DMRS may be transmitted in adjoining resource elements.
- additional reference signals known as CSI reference signals (CSI-RS) may be included to aid in generating channel state information (CSI).
- CSI-RS CSI reference signals
- CSI-RS channel state information
- a UE 115 may transmit a combination of periodic sounding reference signal (SRS) and UL DMRS for link adaptation and demodulation, respectively.
- a base station 105 may gather channel condition information from a UE 115 in order to efficiently configure schedule the channel. This information may be sent from the UE 115 in the form of a channel state report.
- a channel state report may contain a rank indicator (RI) requesting a number of layers to be used for DL transmissions (e.g., based on the antenna ports of the UE 115), a precoding matrix indicator (PMI) indicating a preference for which precoder matrix should be used (based on the number of layers), and a CQI representing the highest modulation and coding scheme (MCS) that may be used.
- RI rank indicator
- PMI precoding matrix indicator
- CQI representing the highest modulation and coding scheme
- CQI may be calculated by a UE 115 after receiving predetermined pilot symbols such as CRS or CSI-RS.
- RI and PMI may be excluded if the UE 115 does not support spatial multiplexing (or is not in support spatial mode).
- the types of information included in the report determines a reporting type.
- Channel state reports may be periodic or aperiodic. That is, a base station 105 may configure a UE 115 to send periodic reports at regular intervals, and may also request additional reports as needed.
- Aperiodic reports may include wideband reports indicating the channel quality across an entire cell bandwidth, UE selected reports indicating a subset of the best subbands, or configured reports in which the subbands reported are selected by the base station 105.
- a system employing an eCA configuration may thus group the CCs into CSI reporting groups.
- Channel state reports for the CCs in each group may be reported together.
- individual CC reports may be multiplexed into a single report and in other cases a single channel state report may contain information related to each CC in the group.
- the combined reports may be transmitted over an uplink control channel or an uplink data channel. Collisions between reports may be resolved based on the reporting type of the groups or the serving cell indices of the CCs in the group.
- FIG. 2 illustrates an exemplary wireless communications subsystem 200 for CSI reporting with eCA in accordance with various aspects of the present disclosure.
- Wireless communications subsystem 200 may include a UE 115-a, which may be an example of a UE 115 described above with reference to FIG. 1 .
- Wireless communications subsystem 200 may also include base station 105-a and 105-b, which may be an example of a base station 105 described above with reference to FIG. 1 .
- base station 105-b may represent a small cell (e.g., a small cell located within the coverage area of base station 105-a).
- Communication links 225-a and 225-b may each include multiple CCs organized according to a CA configuration.
- the CCs of communication links 225-a and 225-b may each include contiguous or non-contiguous frequency bands, and in some cases the frequency bands of the different links may overlap.
- one of the CCs may be designated as a PCell, and the other CCs may correspond to SCells.
- the CC's of communication links 225-a may be organized according to CSI reporting groups that may send combined reports.
- a CSI reporting group may include CCs from both communication links, and in other cases, the CSI reporting groups may include CCs from only one communication link (e.g., associated with a single base station).
- the groups may be selected and configured such that each group is associated with a CSI reporting type (e.g., indicating whether the group will report CQI, PMI, and RI) and a reporting periodicity.
- CCs may be combined for the purpose of combining both periodic and aperiodic CSI reports. In other cases, periodic reports may be combined and aperiodic reports may remain separate.
- base station 105-a may configure UE 115-a with a number CCs in a carrier aggregation configuration (e.g., via communication link 225-a).
- the network associated with base station 105-a e.g., network 130 of FIG. 1
- base station 105-a may configure the CCs in CSI reporting groups.
- Base station 105-a may signal the carrier aggregation configuration and the CSI reporting group configuration to UE 115-a. This may be done using RRC signaling, for example.
- UE 115-a may then transmit CSI to base station 105-a based on the signal. For instance, UE 115-a may transmit combined reports according to the received CSI reporting group configuration.
- Grouping the CCs into CSI reporting groups and sending combined reports may reduce the number of collisions between CSI reports. However, if a collision does occur, in some cases one or more of the colliding reports may be dropped based on a prioritization scheme. For example, CSI reporting groups may be prioritized based on reporting type, and if a collision between two combined reports with the same reporting type occurs, the combined report representing the CSI reporting group including the CC with the lowest serving cell index may be transmitted and the other reports may be dropped. For example, a PCell may have a serving cell index of 0, and so reporting the CSI for the PCell may take precedence over other CSI reports.
- the payload of the report may consist of multiple reports having a format associated with an individual report (e.g., PUCCH format 3, which may include fields adding up to 22 bits) that are multiplexed together.
- one of the multiplexed reports may also include ACK/NACK information.
- a single report may include a CSI parameter for a reference CC (which may cycle between the CCs of the group) and delta values that relate the CSI parameters of the other CCs to that of the reference CC.
- an additional flag may indicate the presence or absence of HARQ feedback.
- Combined reporting groups may be transmitted over either PUCCH, PUSCH or both. If PUSCH is used, the PUSCH resources may be allocated semi-persistently based on the reporting periodicity of the CSI reporting groups.
- FIG. 3 illustrates an exemplary CSI reporting group configuration 300 for CSI reporting with eCA in accordance with various aspects of the present disclosure.
- CSI reporting group configuration 300 may represent a CA configuration between a UE 115 and a base station 105, as described above with reference to FIGs. 1-2 .
- the CCs of CSI reporting group configuration 300 may be divided into CSI reporting groups 305.
- the CCs in each group represent contiguous frequency bands.
- the CCs in each group may be selected based on a desired reporting type or periodicity.
- CCs associated with different base stations 105 may be grouped.
- CSI reporting groups 305-a, 305-b, and 305-c may correspond to a single macro base station whereas CSI reporting group 305-d may correspond to a small cell base station 105.
- the CSI reporting groups may each have the same number of CCs but in other examples the groups may each have a different number CCs.
- FIG. 4 illustrates an exemplary process flow 400 for CSI reporting with eCA in accordance with various aspects of the present disclosure.
- Process flow 400 may include a UE 115-b, which may be an example of UE 115 as described above with reference to FIGs. 1-2 .
- Process flow 400 may also include a base station 105-c, which may be an example of a base station 105 as described above with reference to FIGs. 1-2 .
- base station 105-c and UE 115-b may establish a CA configuration including a large number of CCs.
- the CCs may be grouped into a number of CSI reporting groups.
- base station 105-c may partition the set of component carriers into a plurality of CSI reporting groups, and each CSI reporting group may include several component carriers.
- partitioning the set of component carriers includes selecting a number component carriers for each CSI reporting group based on reporting types (e.g., establishing which type from a set of reporting types is assigned to each CSI reporting group). In some examples, partitioning the set of component carriers is based on a CSI reporting periodicity.
- UE 115-b may identify a carrier aggregation configuration for the set of component carriers, identify the CSI reporting groups, and then identify a CSI reporting configuration for each of the CSI reporting groups.
- each CC from the set of CC is configured with a reporting type and a CSI reporting periodicity.
- base station 105-c and UE 115-b may exchange data using the configured CCs.
- base station 105-c may transmit data interspersed with pilot symbols (e.g., CRS and CSI-RS) that may be used by UE 115-b to determine both instantaneous and statistical CSI.
- pilot symbols e.g., CRS and CSI-RS
- UE 115-b may generate a combined report for each CSI reporting group based on the corresponding CSI reporting configuration.
- UE 115-b may select a reference CC for each of the CSI reporting groups, identify a CSI parameter for each of the reference CCs and calculate a set of CSI delta values corresponding to each CC except for the reference CCs.
- Each of the combined reports may include the CSI parameter for the corresponding reference CC and the CSI delta values for the corresponding CCs.
- generating a combined report includes multiplexing a set of individual CSI reports corresponding to the plurality of CCs in the CSI reporting group. Each of the individual CSI reports may be based on an individual PUCCH format. In some examples, the combined reports include HARQ feedback, a scheduling request, or both.
- UE 115-b may identify potential collisions between combined reports that may be scheduled at the same time.
- the collisions may be resolved using a prioritization scheme based on the reporting type of the reports and, if collisions still occur, the serving cell index of the CCs in each CSI reporting group. For example, if two CSI reporting groups have the same reporting type, the group having a CC with the lowest serving cell index may be transmitted and other colliding group reports may be dropped.
- UE 115-b may transmit a number combined reports and refrain from transmitting certain reports to avoid collisions based on the report prioritization.
- the reports may be transmitted over PUCCH, PUSCH, or both, as described above.
- UE 115-b may also refrain from transmitting at least one of the combined reports based on the prioritization scheme and the identified collision (e.g., colliding reports may be dropped).
- the timing of the transmissions may be based on the CSI reporting periodicity of each group.
- the combined reports may be transmitted on an UL control channel.
- other combined reports may be transmit on another control channel.
- UE 115-b may transmit a second CSI report on a second UL control channel on a different CC than the first UL control channel.
- the combined reports include a number of multiplexed individual reports based on a PUCCH format (e.g., PUCCH format 3).
- the UE 115-b may, for example, transmit the combined reports on a PUSCH using a semi-persistent scheduling configuration.
- Base station 105-c may select the semi-persistent scheduling configuration for the PUSCH based on the periodicity of the reports.
- UE 115-b may transmit data using remaining resources of the PUSCH according to the semi-persistent scheduling configuration after transmission of a combined report.
- the one or more combined reports are jointly coded.
- UE 115-b may transmit a signal on a PUCCH simultaneously to the one or more combined reports on the PUSCH.
- UE 115-b may also send an explicit indication of whether the CSI reports includes HARQ feedback.
- FIG. 5 shows a block diagram of a wireless device 500 configured for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- Wireless device 500 may be an exemplary aspects of a UE 115 described with reference to FIGs. 1-4 .
- Wireless device 500 may include a receiver 505, an enhanced CC (eCC) CSI module 510, or a transmitter 515.
- Wireless device 500 may also include a processor. Each of these components may be in communication with one another.
- eCC enhanced CC
- the receiver 505 may receive information such as packets, user data, or control information associated with various information channels (e.g., control channels, data channels, and information related to CSI reporting for eCA, etc.). Information may be passed on to the eCC CSI module 510, and to other components of wireless device 500.
- information channels e.g., control channels, data channels, and information related to CSI reporting for eCA, etc.
- Information may be passed on to the eCC CSI module 510, and to other components of wireless device 500.
- the eCC CSI module 510 may identify a carrier aggregation configuration for a set of CCs, identify a CSI reporting configuration for each of a plurality of CSI reporting groups, and each CSI reporting group includes a plurality of CCs from the set of CCs, generate a combined report for each of the plurality of CSI reporting groups based on the corresponding CSI reporting configuration, and transmit one or more of the combined reports.
- the transmitter 515 may transmit signals received from other components of wireless device 500.
- the transmitter 515 may be collocated with the receiver 505 in a transceiver module.
- the transmitter 515 may include a single antenna, or it may include a plurality of antennas.
- the transmitter 515 may transmit one or more of the combined reports.
- transmitter 515 may transmit one or more combined reports on a first UL control channel and transmit a second CSI report on a second UL control channel on a different CC than the first UL control channel.
- the transmitter 515 may transmit a signal on a PUCCH simultaneously to transmitting the one or more combined reports on the PUSCH.
- transmitting the one or more combined reports is based on a CSI reporting periodicity.
- FIG. 6 shows a block diagram of a wireless device 600 for CSI reporting for eCAin accordance with various aspects of the present disclosure.
- Wireless device 600 may be anexemplary aspects of a wireless device 500 or a UE 115 described with reference to FIGs. 1-5 .
- Wireless device 600 may include a receiver 505-a, an eCC CSI module 510-a, or a transmitter 515-a.
- Wireless device 600 may also include a processor. Each of these components may be in communication with one another.
- the eCC CSI module 510-a may also include a CA module 605, a CSI grouping module 610, and a combined report module 615.
- the receiver 505-a may receive information which may be passed on to eCC CSI module 510-a, and to other components of the device.
- the eCC CSI module 510-a may perform the operations described above with reference to FIG. 5 .
- the transmitter 515-a may transmit signals received from other components of wireless device 600.
- the CA module 605 may identify a carrier aggregation configuration for a set of CCs as described above with reference to FIGs. 2-4 .
- the CA configuration may include a large number of CCs (e.g., up to 32, or more in some cases).
- the CSI grouping module 610 may identify a CSI reporting configuration for each of a plurality of CSI reporting groups, and each CSI reporting group may include several CCs from the set of CCs as described above with reference to FIGs. 2-4 . In some examples, each CC from the set of CC may be in a CSI reporting group of the several CSI reporting groups.
- the combined report module 615 may generate a combined report for each of the several CSI reporting groups based, for example, on the corresponding CSI reporting configuration as described above with reference to FIGs. 2-4 .
- each of the combined reports includes CSI information for each of the several CCs in a corresponding CSI reporting group.
- generating the combined report for each of the CSI reporting groups includes multiplexing a set of individual CSI reports corresponding to the plurality of CCs in the CSI reporting group, and each of the individual CSI reports may be based at least part on an individual PUCCH format.
- the individual PUCCH format may be a PUCCH format 3.
- wireless devices 500 and 600 may, individually or collectively, be implemented with at least one ASIC adapted to perform some or all of the applicable functions in hardware.
- the functions may be performed by one or more other processing units (or cores), on at least one IC.
- other types of integrated circuits may be used (e.g., Structured/Platform ASICs, an FPGA, or another semi-custom IC), which may be programmed in any manner known in the art.
- the functions of each unit may also be implemented, in whole or in part, with instructions embodied in a memory, formatted to be executed by one or more general or application-specific processors.
- FIG. 7 shows a block diagram 700 of an eCC CSI module 510-b which may be a component of a wireless device 500 or a wireless device 600 for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- the eCC CSI module 510-b may be an example of aspects of an eCC CSI module 510 described with reference to FIGs. 5 and 6 .
- the eCC CSI module 510-b may include a CA module 605-a, a CSI grouping module 610-a, and a combined report module 615-a. Each of these modules may perform the functions described above with reference to FIG. 6 .
- the eCC CSI module 510-b may also include a CSI delta module 705, a CSI module 710, a HARQ module 715, a CSI PUSCH module 720, a CSI periodicity module 725, and a collision resolution module 730.
- the components of the eCC CSI module 510-b may, individually or collectively, be implemented with at least one ASIC adapted to perform some or all of the applicable functions in hardware. Alternatively, the functions may be performed by one or more other processing units (or cores), on at least one IC. In other examples, other types of integrated circuits may be used (e.g., Structured/Platform ASICs, an FPGA, or another semi-custom IC), which may be programmed in any manner known in the art.
- the functions of each unit may also be implemented, in whole or in part, with instructions embodied in a memory, formatted to be executed by one or more general or application-specific processors.
- the CSI delta module 705 may select a reference CC for each of the CSI reporting groups as described above with reference to FIGs. 2-4 .
- the CSI delta module 705 may also calculate a set of CSI delta values corresponding to each CC of the set of CCs except for the reference CCs.
- each of the combined reports includes the CSI parameter for the corresponding reference CC and a subset of CSI delta values for the corresponding plurality of CCs.
- the CSI module 710 may identify a CSI parameter for each of the reference CCs as described above with reference to FIGs. 2-4 . This may enable calculation of the delta values described above.
- the HARQ module 715 may be to include HARQ feedback with a combined report as described above with reference to FIGs. 2-4 .
- the HARQ module 715 may also send an indication that the one or more CSI reports includes HARQ feedback.
- at least one of the combined reports includes at least one of HARQ feedback or an SR, or both.
- the CSI PUSCH module 720 may be configured to coordinate with a transmitter to send one or more combined reports on a PUSCH using a semi-persistent scheduling configuration as described above with reference to FIGs. 2-4 .
- the one or more combined reports transmitted on PUSCH are jointly coded.
- the CSI PUSCH module 720 may also select or identify the semi-persistent scheduling configuration for the PUSCH based on a periodicity of the one or more combined reports.
- the CSI PUSCH module 720 may also coordinate with a transmitter to transmit data using remaining resources of the PUSCH.
- the CSI periodicity module 725 may be configured to identify reporting configurations according to a CSI reporting periodicity as described above with reference to FIGs. 2-4 .
- the collision resolution module 730 may identify a collision between two or more of the combined reports as described above with reference to FIGs. 2-4 .
- the collision resolution module 730 may also refrain from, or cause a wireless device to refrain from, transmitting a combined report based on a prioritization scheme and the identified collision.
- the prioritization scheme may be based on a set of reporting types, and each CC of the plurality of CCs in each CSI reporting group has a same reporting type.
- the prioritization scheme may be further based on a lowest serving cell index.
- FIG. 8 shows a diagram of a system 800 including a UE 115 configured for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- System 800 may include UE 115-c, which may be an example of a wireless device 500, a wireless device 600, or a UE 115 described above with reference to FIGs. 1 , 2 and 5-7 .
- UE 115-c may include an eCC CSI module 810, which may be an example of an eCC CSI module 510 described with reference to FIGs. 5-7 .
- UE 115-c may also include a CRS processing module 825.
- UE 115-c may also include components for bi-directional voice and data communications including components for transmitting communications and components for receiving communications. For example, UE 115-c may communicate bi-directionally with base station 105-d or UE 115-d.
- CRS processing module 825 may receive and process CRS or CSI-RS to identify CQI and other channel state information for inclusion in a combined report for one or more CCs.
- UE 115-c may also include a processor 805, and memory 815 (including software (SW) 820), a transceiver 835, and one or more antenna(s) 840, each of which may communicate, directly or indirectly, with one another (e.g., via buses 845).
- the transceiver 835 may communicate bi-directionally, via the antenna(s) 840 or wired or wireless links, with one or more networks, as described above.
- the transceiver 835 may communicate bi-directionally with a base station 105 or another UE 115.
- the transceiver 835 may include a modem to modulate the packets and provide the modulated packets to the antenna(s) 840 for transmission, and to demodulate packets received from the antenna(s) 840. While UE 115-c may include a single antenna 840, UE 115-c may also have multiple antennas 840 capable of concurrently transmitting or receiving multiple wireless transmissions.
- the memory 815 may include random access memory (RAM) and read only memory (ROM).
- the memory 815 may store computer-readable, computer-executable software/firmware code 820 including instructions that, when executed, cause the processor module 805 to perform various functions described herein (e.g., CSI reporting for eCA, etc.), or which may cause the processor to cause UE 115-c, or its components, to perform the functions described herein.
- the software/firmware code 820 may not be directly executable by the processor module 805 but cause a computer (e.g., when compiled and executed) to perform functions described herein.
- the processor module 805 may include an intelligent hardware device, (e.g., a central processing unit (CPU), a microcontroller, an ASIC, etc.)
- FIG. 9 shows a block diagram of a wireless device 900 configured for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- Wireless device 900 may be an example of aspects of a base station 105 described with reference to FIGs. 1-8 .
- Wireless device 900 may include a receiver 905, a base station eCC CSI module 910, or a transmitter 915.
- Wireless device 900 may also include a processor. Each of these components may be in communication with one another.
- the receiver 905 may receive information such as packets, user data, or control information associated with various information channels (e.g., control channels, data channels, and information related to CSI reporting for eCA, etc.). Information may be passed on to the base station eCC CSI module 910, and to other components of wireless device 900. In some examples, the receiver 905 may receive data using remaining resources of the PUSCH according to the semi-persistent scheduling configuration. In some examples, the receiver 905 may receive a signal on a PUCCH simultaneously to receiving one or more combined reports on a PUSCH.
- various information channels e.g., control channels, data channels, and information related to CSI reporting for eCA, etc.
- Information may be passed on to the base station eCC CSI module 910, and to other components of wireless device 900.
- the receiver 905 may receive data using remaining resources of the PUSCH according to the semi-persistent scheduling configuration.
- the receiver 905 may receive a signal on a PUCCH simultaneously to receiving one or more
- the base station eCC CSI module 910 may establish a carrier aggregation configuration for a set of CCs, partition the set of CCs into several CSI reporting groups, and each CSI reporting group includes a plurality of CCs, configure each CSI reporting group with a CSI reporting configuration, and receive one or several combined reports corresponding to CSI reporting groups based on the corresponding CSI reporting configurations.
- the transmitter 915 may transmit signals received from other components of wireless device 900.
- the transmitter 915 may be collocated with the receiver 905 in a transceiver module.
- the transmitter 915 may include a single antenna, or it may include a plurality of antennas.
- FIG. 10 shows a block diagram of a wireless device 1000 for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- Wireless device 1000 may be an example of aspects of a wireless device 900 or a base station 105 described with reference to FIGs. 1-9 .
- Wireless device 1000 may include a receiver 905-a, a base station eCC CSI module 910-a, or a transmitter 915-a.
- Wireless device 1000 may also include a processor. Each of these components may be in communication with one another.
- the base station eCC CSI module 910-a may also include a CA configuration module 1005, a CC partitioning module 1010, a CSI configuration module 1015, and a CSI processing module 1020.
- the receiver 905-a may receive information which may be passed on to base station eCC CSI module 910-a, and to other components of the device.
- the base station eCC CSI module 910-a may perform the operations described above with reference to FIG. 9 .
- the transmitter 915-a may transmit signals received from other components of wireless device 1000.
- the CA configuration module 1005 may establish a carrier aggregation configuration for a set of CCs as described above with reference to FIGs. 2-4 .
- the CC partitioning module 1010 may partition the set of CCs into CSI reporting groups, and each CSI reporting group may include a number of CCs as described above with reference to FIGs. 2-4 .
- partitioning the set of CCs includes selecting a plurality of CCs for each CSI reporting group based on a set of reporting types.
- partitioning the set of CCs includes selecting a plurality of CCs for each CSI reporting group based on a CSI reporting periodicity.
- each CC from the set of CC may be in a CSI reporting group of the plurality of CSI reporting groups.
- the CSI configuration module 1015 may configure each CSI reporting group with a CSI reporting configuration as described above with reference to FIGs. 2-4 .
- each of the CSI reporting configurations includes a CSI reporting periodicity.
- the CSI processing module 1020 may receive one or more combined reports corresponding to CSI reporting groups based on the corresponding CSI reporting configurations as described above with reference to FIGs. 2-4 .
- each of the combined reports includes CSI information for each of the plurality of CCs in a corresponding CSI reporting group.
- each of the one or more combined reports include a multiplexed set of individual CSI reports corresponding to the plurality of CCs in the CSI reporting group, and each of the individual CSI reports may be based at least part on an individual PUCCH format.
- the individual PUCCH format may be a PUCCH format 3.
- the one or more combined reports are received on a first UL control channel.
- the CSI processing module 1020 may also receive a second CSI report on a second UL control channel on a different CC than the first UL control channel.
- receiving the one or more combined reports is based on the CSI reporting periodicity.
- wireless devices 900 and 1000 may, individually or collectively, be implemented with at least one ASIC adapted to perform some or all of the applicable functions in hardware.
- the functions may be performed by one or more other processing units (or cores), on at least one IC.
- other types of integrated circuits may be used (e.g., Structured/Platform ASICs, an FPGA, or another semi-custom IC), which may be programmed in any manner known in the art.
- the functions of each unit may also be implemented, in whole or in part, with instructions embodied in a memory, formatted to be executed by one or more general or application-specific processors.
- FIG. 11 shows a block diagram 1100 of a base station eCC CSI module 910-b which may be a component of a wireless device 900 or a wireless device 1000 for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- the base station eCC CSI module 910-b may be an example of aspects of a base station eCC CSI module 910 described with reference to FIGs. 9-10 .
- the base station eCC CSI module 910-b may include a CA configuration module 1005-a, a CC partitioning module 1010-a, a CSI configuration module 1015-a, and a CSI processing module 1020-a. Each of these modules may perform the functions described above with reference to FIG. 10 .
- the base station eCC CSI module 910-b may also include a BS HARQ module 1105, and a PUSCH configuration module 1110.
- the components of the base station eCC CSI module 910-b may, individually or collectively, be implemented with at least one ASIC adapted to perform some or all of the applicable functions in hardware. Alternatively, the functions may be performed by one or more other processing units (or cores), on at least one IC. In other examples, other types of integrated circuits may be used (e.g., Structured/Platform ASICs, an FPGA, or another semi-custom IC), which may be programmed in any manner known in the art.
- the functions of each unit may also be implemented, in whole or in part, with instructions embodied in a memory, formatted to be executed by one or more general or application-specific processors.
- the BS HARQ module 1105 may be configured identify and utilize combined reports that include HARQ feedback as described above with reference to FIGs. 2-4 .
- the PUSCH configuration module 1110 may be configured to receive combined reports based on a PUSCH using a semi-persistent scheduling configuration as described above with reference to FIGs. 2-4 . In some examples, combined reports are jointly coded. The PUSCH configuration module 1110 may also select the semi-persistent scheduling configuration for the PUSCH based on a periodicity of the combined reports.
- FIG. 12 shows a diagram of a system 1200 including a base station 105 configured for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- System 1200 may include base station 105-e, which may be an example of wireless device 900, a wireless device 1000, or a base station 105 described above with reference to FIGs. 1 , 2 and 9-11 .
- Base Station 105-e may include a base station eCC CSI module 1210, which may be an example of base station eCC CSI module 910 described with reference to FIGs. 9-11 .
- Base Station 105-e may also include components for bi-directional voice and data communications including components for transmitting communications and components for receiving communications. For example, base station 105-e may communicate bi-directionally with UE 115-e or UE 115-f.
- base station 105-e may have one or more wired backhaul links.
- Base station 105-e may have a wired backhaul link (e.g., SI interface, etc.) to the core network 130.
- Base station 105-e may also communicate with other base stations 105, such as base station 105-f and base station 105-g via inter-base station backhaul links (e.g., an X2 interface).
- Each of the base stations 105 may communicate with UEs 115 using the same or different wireless communications technologies.
- base station 105-e may communicate with other base stations such as 105-f or 105-g utilizing base station communication module 1225.
- base station communication module 1225 may provide an X2 interface within an LTE/LTE-A wireless communication network technology to provide communication between some of the base stations 105.
- base station 105-e may communicate with other base stations through core network 130.
- base station 105-e may communicate with the core network 130 through network communications module 1230.
- the base station 105-e may include a processor module 1205, memory 1215 (including software (SW)1220), transceiver modules 1235, and antenna(s) 1240, which each may be in communication, directly or indirectly, with one another (e.g., over bus system 1245).
- the transceiver modules 1235 may be configured to communicate bi-directionally, via the antenna(s) 1240, with the UEs 115, which may be multi-mode devices.
- the transceiver module 1235 (or other components of the base station 105-e) may also be configured to communicate bi-directionally, via the antennas 1240, with one or more other base stations (not shown).
- the transceiver module 1235 may include a modem configured to modulate the packets and provide the modulated packets to the antennas 1240 for transmission, and to demodulate packets received from the antennas 1240.
- the base station 105-e may include multiple transceiver modules 1235, each with one or more associated antennas 1240.
- the transceiver module may be an exemplary combined receiver 905 and transmitter 915 of FIG. 9 .
- the memory 1215 may include RAM and ROM.
- the memory 1215 may also store computer-readable, computer-executable software code 1220 containing instructions that are configured to, when executed, cause the processor module 1210 to perform various functions described herein (e.g., CSI reporting for eCA, selecting coverage enhancement techniques, call processing, database management, message routing, etc.), or may cause the processor to cause base station 105-c, or its components, to perform functions described herein.
- the software 1220 may not be directly executable by the processor module 1205 but be configured to cause the computer, e.g., when compiled and executed, to perform functions described herein.
- the processor module 1205 may include an intelligent hardware device, e.g., a CPU, a microcontroller, an ASIC, etc.
- the processor module 1205 may include various special purpose processors such as encoders, queue processing modules, base band processors, radio head controllers, digital signal processor (DSPs), and the like.
- the base station communications module 1225 may manage communications with other base stations 105.
- the communications management module may include a controller or scheduler for controlling communications with UEs 115 in cooperation with other base stations 105.
- the base station communications module 1225 may coordinate scheduling for transmissions to UEs 115 for various interference mitigation techniques such as beamforming or joint transmission.
- FIG. 13 shows a flowchart illustrating a method 1300 for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- the operations of method 1300 may be implemented by a UE 115 or its components as described with reference to FIGs. 1-8 .
- the operations of method 1300 may be performed by the eCC CSI module 510 as described with reference to FIGs. 5-8 .
- a UE 115 may execute a set of codes to control the functional elements of the UE 115 to perform the functions described below. Additionally or alternatively, the UE 115 may perform aspects the functions described below using special-purpose hardware.
- the UE 115 may identify a CSI reporting configuration for each of a plurality of CSI reporting groups, and each CSI reporting group includes a plurality of CCs from a set of CCs as described above with reference to FIGs. 2-4 .
- the operations of block 1310 may be performed by the CSI grouping module 610 as described above with reference to FIG. 6 .
- the UE 115 may generate a combined report for each of the plurality of CSI reporting groups based on the corresponding CSI reporting configuration as described above with reference to FIGs. 2-4 .
- the operations of block 1315 may be performed by the combined report module 615 as described above with reference to FIG. 6 .
- the UE 115 may transmit one or more of the combined reports as described above with reference to FIGs. 2-4 .
- the operations of block 1320 may be performed by the transmitter 515 as described above with reference to FIG. 5 .
- FIG. 14 shows a flowchart illustrating a method 1400 for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- the operations of method 1400 may be implemented by a UE 115 or its components as described with reference to FIGs. 1-8 .
- the operations of method 1400 may be performed by the eCC CSI module 510 as described with reference to FIGs. 5-8 .
- a UE 115 may execute a set of codes to control the functional elements of the UE 115 to perform the functions described below. Additionally or alternatively, the UE 115 may perform aspects the functions described below using special-purpose hardware.
- the method 1400 may also incorporate aspects of method 1300 of FIG. 13 .
- the UE 115 may identify a CSI reporting configuration for each of a plurality of CSI reporting groups, and each CSI reporting group includes a plurality of CCs from a set of CCs as described above with reference to FIGs. 2-4 .
- the operations of block 1410 may be performed by the CSI grouping module 610 as described above with reference to FIG. 6 .
- the UE 115 may select a reference CC for each of the CSI reporting groups as described above with reference to FIGs. 2-4 .
- the operations of block 1415 may be performed by the CSI delta module 705 as described above with reference to FIG. 7 .
- the UE 115 may identify a CSI parameter for each of the reference CCs as described above with reference to FIGs. 2-4 .
- the operations of block 1420 may be performed by the CSI module 710 as described above with reference to FIG. 7 .
- the UE 115 may calculate a set of CSI delta values corresponding to each CC of the set of CCs except for the reference CCs as described above with reference to FIGs. 2-4 .
- the operations of block 1425 may be performed by the CSI delta module 705 as described above with reference to FIG. 7 .
- the UE 115 may generate a combined report for each of the plurality of CSI reporting groups based on the corresponding CSI reporting configuration as described above with reference to FIGs. 2-4 .
- each of the combined reports includes the CSI parameter for the corresponding reference CC and a subset of CSI delta values for the corresponding plurality of CCs.
- the operations of block 1430 may be performed by the combined report module 615 as described above with reference to FIG. 6 .
- the UE 115 may transmit one or more of the combined reports as described above with reference to FIGs. 2-4 .
- the operations of block 1435 may be performed by the transmitter 515 as described above with reference to FIG. 5 .
- FIG. 15 shows a flowchart illustrating a method 1500 for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- the operations of method 1500 may be implemented by a UE 115 or its components as described with reference to FIGs. 1-8 .
- the operations of method 1500 may be performed by the eCC CSI module 510 as described with reference to FIGs. 5-8 .
- a UE 115 may execute a set of codes to control the functional elements of the UE 115 to perform the functions described below. Additionally or alternatively, the UE 115 may perform aspects the functions described below using special-purpose hardware.
- the method 1500 may also incorporate aspects of methods 1300 or 1400 of FIGs. 13 and 14 .
- the UE 115 may identify a CSI reporting configuration for each of a plurality of CSI reporting groups, and each CSI reporting group includes a plurality of CCs from a set of CCs as described above with reference to FIGs. 2-4 .
- the operations of block 1510 may be performed by the CSI grouping module 610 as described above with reference to FIG. 6 .
- the UE 115 may generate a combined report for each of the plurality of CSI reporting groups based on the corresponding CSI reporting configuration as described above with reference to FIGs. 2-4 .
- generating the combined report for each of the plurality of CSI reporting groups includes: multiplexing a set of individual CSI reports corresponding to the plurality of CCs in the CSI reporting group, and each of the individual CSI reports is based at least part on an individual PUCCH format.
- the one or more of the combined reports includes HARQ feedback.
- the operations of block 1515 may be performed by the combined report module 615 as described above with reference to FIG. 6 .
- the UE 115 may transmit one or more of the combined reports as described above with reference to FIGs. 2-4 .
- transmitting the one or more of the combined reports includes: transmitting the one or more of the combined reports on a first UL control channel.
- the operations of block 1520 may be performed by the transmitter 515 as described above with reference to FIG. 5 .
- the UE 115 may transmit a second CSI report on a second UL control channel on a different CC than the first UL control channel as described above with reference to FIGs. 2-4 .
- the operations of block 1525 may be performed by the transmitter 515 as described above with reference to FIG. 5 .
- FIG. 16 shows a flowchart illustrating a method 1600 for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- the operations of method 1600 may be implemented by a UE 115 or its components as described with reference to FIGs. 1-8 .
- the operations of method 1600 may be performed by the eCC CSI module 510 as described with reference to FIGs. 5-8 .
- a UE 115 may execute a set of codes to control the functional elements of the UE 115 to perform the functions described below. Additionally or alternatively, the UE 115 may perform aspects the functions described below using special-purpose hardware.
- the method 1600 may also incorporate aspects of methods 1300, 1400, or 1500 of FIGs. 13-15 .
- the UE 115 may identify a CSI reporting configuration for each of a plurality of CSI reporting groups, and each CSI reporting group includes a plurality of CCs from a set of CCs as described above with reference to FIGs. 2-4 .
- the operations of block 1610 may be performed by the CSI grouping module 610 as described above with reference to FIG. 6 .
- the UE 115 may generate a combined report for each of the plurality of CSI reporting groups based on the corresponding CSI reporting configuration as described above with reference to FIGs. 2-4 .
- the operations of block 1615 may be performed by the combined report module 615 as described above with reference to FIG. 6 .
- the UE 115 may identify a collision between two or more of the combined reports as described above with reference to FIGs. 2-4 .
- the operations of block 1620 may be performed by the collision resolution module 730 as described above with reference to FIG. 7 .
- the UE 115 may transmit one or more of the combined reports as described above with reference to FIGs. 2-4 .
- the operations of block 1625 may be performed by the transmitter 515 as described above with reference to FIG. 5 .
- the UE 115 may refrain from transmitting at least one of the two or more combined reports based on a prioritization scheme and the identified collision as described above with reference to FIGs. 2-4 .
- the operations of block 1630 may be performed by the collision resolution module 730 as described above with reference to FIG. 7 .
- FIG. 17 shows a flowchart illustrating a method 1700 for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- the operations of method 1700 may be implemented by a base station 105 or its components as described with reference to FIGs. 1-7 , and 9-12 .
- the operations of method 1700 may be performed by the base station eCC CSI module 910 as described with reference to FIGs. 9-12 .
- a base station 105 may execute a set of codes to control the functional elements of the base station 105 to perform the functions described below. Additionally or alternatively, the base station 105 may perform aspects the functions described below using special-purpose hardware.
- the base station 105 may establish a carrier aggregation configuration for a set of CCs as described above with reference to FIGs. 2-4 .
- the operations of block 1705 may be performed by the CA configuration module 1005 as described above with reference to FIG. 10 .
- the base station 105 may partition at least a portion of the set of CCs into a plurality of CSI reporting groups, and each CSI reporting group includes a plurality of CCs as described above with reference to FIGs. 2-4 .
- the operations of block 1710 may be performed by the CC partitioning module 1010 as described above with reference to FIG. 10 .
- the base station 105 may configure each CSI reporting group with a CSI reporting configuration as described above with reference to FIGs. 2-4 .
- the operations of block 1715 may be performed by the CSI configuration module 1015 as described above with reference to FIG. 10 .
- the base station 105 may receive one or more combined reports corresponding to CSI reporting groups based on the corresponding CSI reporting configurations as described above with reference to FIGs. 2-4 .
- the operations of block 1720 may be performed by the CSI processing module 1020 as described above with reference to FIG. 10 .
- FIG. 18 shows a flowchart illustrating a method 1800 for CSI reporting for eCA in accordance with various aspects of the present disclosure.
- the operations of method 1800 may be implemented by a base station 105 or its components as described with reference to FIGs. 1-7 , and 9-12 .
- the operations of method 1800 may be performed by the base station eCC CSI module 910 as described with reference to FIGs. 9-12 .
- a base station 105 may execute a set of codes to control the functional elements of the base station 105 to perform the functions described below. Additionally or alternatively, the base station 105 may perform aspects the functions described below using special-purpose hardware.
- the method 1800 may also incorporate aspects of method 1700 of FIG. 17 .
- the base station 105 may establish a carrier aggregation configuration for a set of CCs as described above with reference to FIGs. 2-4 .
- the operations of block 1805 may be performed by the CA configuration module 1005 as described above with reference to FIG. 10 .
- the base station 105 may partition at least a portion of the set of CCs into a plurality of CSI reporting groups, and each CSI reporting group includes a plurality of CCs as described above with reference to FIGs. 2-4 .
- the operations of block 1810 may be performed by the CC partitioning module 1010 as described above with reference to FIG. 10 .
- the base station 105 may configure each CSI reporting group with a CSI reporting configuration as described above with reference to FIGs. 2-4 .
- the operations of block 1815 may be performed by the CSI configuration module 1015 as described above with reference to FIG. 10 .
- the base station 105 may receive one or more combined reports corresponding to CSI reporting groups based on the corresponding CSI reporting configurations as described above with reference to FIGs. 2-4 .
- receiving the one or more combined reports includes: receiving a multiplexed set of individual CSI reports corresponding to the plurality of CCs in the CSI reporting group, and each of the individual CSI reports is based at least part on an individual PUCCH format.
- the one or more of the combined reports includes HARQ feedback.
- receiving the one or more of the combined reports includes: receiving the one or more of the combined reports on an UL control channel.
- the operations of block 1820 may be performed by the CSI processing module 1020 as described above with reference to FIG. 10 .
- the base station 105 may receive a second CSI report on a second UL control channel on a different CC than the first UL control channel as described above with reference to FIGs. 2-4 .
- the operations of block 1825 may be performed by the CSI processing module 1020 as described above with reference to FIG. 10 .
- methods 1300, 1400, 1500, 1600, 1700, and 1800 may provide for CSI reporting for eCA. It should be noted that methods 1300, 1400, 1500, 1600, 1700, and 1800 describe possible implementation, and that the operations and the steps may be rearranged or otherwise modified such that other implementations are possible. In some examples, aspects from two or more of the methods 1300, 1400, 1500, 1600, 1700, and 1800 may be combined.
- Information and signals may be represented using any of a variety of different technologies and techniques.
- data, instructions, commands, information, signals, bits, symbols, and chips that may be referenced throughout the above description may be represented by voltages, currents, electromagnetic waves, magnetic fields or particles, optical fields or particles, or any combination thereof.
- a general-purpose processor may be a microprocessor, but in the alternative, the processor may be any conventional processor, controller, microcontroller, or state machine.
- a processor may also be implemented as a combination of computing devices (e.g., a combination of a DSP and a microprocessor, multiple microprocessors, one or more microprocessors in conjunction with a DSP core, or any other such configuration).
- the functions described herein may be implemented in hardware, software executed by a processor, firmware, or any combination thereof. If implemented in software executed by a processor, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. Other examples and implementations are within the scope of the disclosure and appended claims. For example, due to the nature of software, functions described above can be implemented using software executed by a processor, hardware, firmware, hardwiring, or combinations of any of these. Features implementing functions may also be physically located at various positions, including being distributed such that portions of functions are implemented at different physical locations.
- Computer-readable media includes both non-transitory computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another.
- a non-transitory storage medium may be any available medium that can be accessed by a general purpose or special purpose computer.
- non-transitory computer-readable media can comprise RAM, ROM, electrically erasable programmable read only memory (EEPROM), compact disk (CD) ROM or other optical disk storage, magnetic disk storage or other magnetic storage devices, or any other non-transitory medium that can be used to carry or store desired program code means in the form of instructions or data structures and that can be accessed by a general-purpose or special-purpose computer, or a general-purpose or special-purpose processor.
- RAM random access memory
- ROM read only memory
- EEPROM electrically erasable programmable read only memory
- CD compact disk
- magnetic disk storage or other magnetic storage devices or any other non-transitory medium that can be used to carry or store desired program code means in the form of instructions or data structures
- any connection is properly termed a computer-readable medium.
- the software is transmitted from a website, server, or other remote source using a coaxial cable, fiber optic cable, twisted pair, digital subscriber line (DSL), or wireless technologies such as infrared, radio, and microwave
- the coaxial cable, fiber optic cable, twisted pair, DSL, or wireless technologies such as infrared, radio, and microwave are included in the definition of medium.
- Disk and disc include CD, laser disc, optical disc, digital versatile disc (DVD), floppy disk and Blu-ray disc where disks usually reproduce data magnetically, while discs reproduce data optically with lasers. Combinations of the above are also included within the scope of computer-readable media.
- CDMA code division multiple access
- TDMA time division multiple access
- FDMA frequency division multiple access
- SC-FDMA SC-FDMA
- a CDMA system may implement a radio technology such as CDMA2000, Universal Terrestrial Radio Access (UTRA), etc.
- CDMA2000 covers IS-2000, IS-95, and IS-856 standards.
- IS-2000 Releases 0 and A are commonly referred to as CDMA2000 IX, IX, etc.
- IS-856 (TIA-856) is commonly referred to as CDMA2000 1xEV-DO, High Rate Packet Data (HRPD), etc.
- UTRA includes Wideband CDMA (WCDMA) and other variants of CDMA.
- a TDMA system may implement a radio technology such as Global System for Mobile Communications (GSM).
- GSM Global System for Mobile Communications
- An OFDMA system may implement a radio technology such as Ultra Mobile Broadband (UMB), Evolved UTRA (E-UTRA), IEEE 802.11 (Wi-Fi), IEEE 802.16 (WiMAX), IEEE 802.20, Flash-OFDM, etc.
- UMB Ultra Mobile Broadband
- E-UTRA Evolved UTRA
- Wi-Fi Wi-Fi
- WiMAX IEEE 802.16
- IEEE 802.20 Flash-OFDM
- UTRA and E-UTRA are part of Universal Mobile Telecommunications system (UMTS).
- 3GPP Long Term Evolution (LTE) and LTE-Advanced (LTE-A) are new releases of Universal Mobile Telecommunications System (UMTS) that use E-UTRA.
- UTRA, E-UTRA, UMTS, LTE, LTE-A, and Global System for Mobile communications are described in documents from an organization named "3rd Generation Partnership Project” (3GPP).
- CDMA2000 and UMB are described in documents from an organization named “3rd Generation Partnership Project 2" (3GPP2).
- the techniques described herein may be used for the systems and radio technologies mentioned above as well as other systems and radio technologies.
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Claims (11)
- Un procédé de communication sans fil par un équipement utilisateur, UE (115), comprenant :l'identification (1310) d'une configuration de rapport d'information d'état de canal, CSI, pour chacun d'une pluralité de groupes de rapport de CSI, dans lequel chaque groupe de rapport de CSI comprend une pluralité de porteuses composantes parmi un ensemble de porteuses composantes dans une configuration d'agrégation de porteuses de l'UE (115) ;la détermination (1415) d'une porteuse composante de référence pour chacun des groupes de rapport de CSI, dans lequel la porteuse composante de référence opère cycliquement parmi la pluralité de porteuses composantes dans un groupe de rapport de CSI ;l'identification (1420) d'un paramètre de CSI pour chaque porteuse composante de référence ;le calcul (1425) d'un ensemble de valeurs delta de CSI correspondant à des porteuses composantes respectives de l'ensemble de porteuses composantes, dans lequel la valeur delta de CSI pour une porteuse composante est basée sur le paramètre de CSI pour la porteuse composante de référence du groupe de rapport de CSI correspondant ;la génération (1315) d'un rapport combiné pour chacun de la pluralité de groupes de rapport de CSI sur la base, au moins en partie, de la configuration de rapport de CSI correspondante, dans lequel chacun des rapports combinés comprend le paramètre de CSI pour la porteuse composante de référence et les valeurs delta de CSI calculées pour la pluralité de porteuses composantes dans le groupe de rapport de CSI correspondant ; etla transmission (1320) d'un ou plusieurs des rapports combinés.
- Le procédé selon la revendication 1, dans lequel chaque porteuse composante de l'ensemble de porteuses composantes est associée à un groupe de rapport de CSI de la pluralité de groupes de rapport de CSI.
- Le procédé selon la revendication 1, dans lequel la transmission (1320) des un ou plusieurs rapports combinés comprend :
la transmission des un ou plusieurs rapports combinés sur un canal physique partagé de liaison montante, PUSCH, en fonction d'une configuration de planification de l'UE (115) sur la base d'une périodicité des rapports. - Le procédé selon la revendication 1, dans lequel chacune des configurations de rapport de CSI comprend une périodicité de rapport de CSI, et dans lequel la transmission des un ou plusieurs rapports combinés comprend :
la transmission des un ou plusieurs rapports combinés sur la base, au moins en partie, de la périodicité de rapport de CSI. - Le procédé selon la revendication 1, comprenant en outre :l'identification (1620) d'une collision entre au moins deux des rapports combinés ; etla non transmission (1630) d'au moins un des au moins deux des rapports combinés sur la base, au moins en partie, d'un schéma de détermination de priorité et quand la collision est identifiée.
- Le procédé selon la revendication 5, dans lequel le schéma de détermination de priorité est basé, au moins en partie, sur un ensemble de types de rapport, et dans lequel chaque porteuse composante de la pluralité de porteuses composantes dans chaque groupe de rapport de CSI a un même type de rapport.
- Le procédé selon la revendication 6, dans lequel le schéma de détermination de priorité est basé en outre, au moins en partie, sur un indice de cellule de desserte le plus bas.
- Un procédé de communication sans fil par une station de base (105), comprenant :la configuration (1705) d'un ensemble de porteuses composantes dans une configuration d'agrégation de porteuses pour un équipement utilisateur, UE (115) ;le partitionnement (1710) d'au moins une partie de l'ensemble de porteuses composantes dans une pluralité de groupes de rapport de CSI, dans lequel chaque groupe de rapport de CSI comprend une pluralité de porteuses composantes ;la configuration (1715) de chaque groupe de rapport de CSI avec une configuration de rapport de CSI ; etla réception (1720), à partir de l'UE (115), d'un ou plusieurs rapports combinés correspondant aux groupes de rapport de CSI sur la base, au moins en partie, des configurations de rapport de CSI correspondantes, dans lequel chacun des rapports combinés comprend un paramètre de CSI pour une porteuse composante de référence qui opère cycliquement parmi la pluralité de porteuses composantes dans le groupe de rapport de CSI et des valeurs delta de CSI calculées pour la pluralité de porteuses composantes dans le groupe de rapport de CSI correspondant, dans lequel la valeur delta de CSI pour une porteuse composante est basée sur le paramètre de CSI pour la porteuse composante de référence du groupe de rapport de CSI correspondant.
- Le procédé selon la revendication 8, dans lequel le partitionnement (1710) d'au moins une partie de l'ensemble de porteuses composantes comprend :
la sélection d'une pluralité de porteuses composantes pour chaque groupe de rapport de CSI sur la base, au moins en partie, d'un ensemble de types de rapport. - Un appareil pour la communication sans fil par un équipement utilisateur, UE (115), comprenant :un moyen pour identifier une configuration de rapport d'information d'état de canal, CSI, pour chacun d'une pluralité de groupes de rapport de CSI, dans lequel chaque groupe de rapport de CSI comprend une pluralité de porteuses composantes parmi un ensemble de porteuses composantes dans une configuration d'agrégation de porteuses de l'UE (115) ;un moyen pour déterminer une porteuse composante de référence pour chacun des groupes de rapport de CSI, dans lequel la porteuse composante de référence opère cycliquement parmi la pluralité de porteuses composantes dans un groupe de rapport de CSI ;un moyen pour identifier un paramètre de CSI pour chaque porteuse composante de référence ;un moyen pour calculer un ensemble de valeurs delta de CSI correspondant à des porteuses composantes respectives de l'ensemble de porteuses composantes, dans lequel la valeur delta de CSI pour une porteuse composante est basée sur le paramètre de CSI pour la porteuse composante de référence du groupe de rapport de CSI correspondant ;un moyen pour générer (610, 615) un rapport combiné pour chacun de la pluralité de groupes de rapport de CSI sur la base, au moins en partie, de la configuration de rapport de CSI correspondante, dans lequel chacun des rapports combinés comprend le paramètre de CSI pour la porteuse composante de référence et les valeurs delta de CSI calculées pour la pluralité de porteuses composantes dans le groupe de rapport de CSI correspondant ; etun moyen pour transmettre (515-a) un ou plusieurs des rapports combinés.
- Un appareil pour la communication sans fil par une station de base (105), comprenant :un moyen pour configurer (1005) un ensemble de porteuses composantes dans une configuration d'agrégation de porteuses pour un équipement utilisateur, UE (115) ;un moyen pour partitionner (1010) au moins une partie de l'ensemble de porteuses composantes dans une pluralité de groupes de rapport de CSI, dans lequel chaque groupe de rapport de CSI comprend une pluralité de porteuses composantes ;un moyen pour configurer (1015) chaque groupe de rapport de CSI avec une configuration de rapport de CSI ; etun moyen pour recevoir (905-a), à partir de l'UE (115), un ou plusieurs rapports combinés correspondant aux groupes de rapport de CSI sur la base, au moins en partie, des configurations de rapport de CSI correspondantes, dans lequel chacun des rapports combinés comprend un paramètre de CSI pour une porteuse composante de référence qui opère cycliquement parmi la pluralité de porteuses composantes dans le groupe de rapport de CSI et des valeurs delta de CSI calculées pour la pluralité de porteuses composantes dans le groupe de rapport de CSI correspondant, dans lequel la valeur delta de CSI pour une porteuse composante est basée sur le paramètre de CSI pour la porteuse composante de référence du groupe de rapport de CSI correspondant.
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-
2016
- 2016-01-14 US US14/995,453 patent/US10122429B2/en active Active
- 2016-01-15 CN CN201680005876.2A patent/CN107113151A/zh active Pending
- 2016-01-15 CN CN202111020042.8A patent/CN113630231A/zh active Pending
- 2016-01-15 KR KR1020177018965A patent/KR102586657B1/ko active IP Right Grant
- 2016-01-15 BR BR112017015141-3A patent/BR112017015141B1/pt active IP Right Grant
- 2016-01-15 JP JP2017537491A patent/JP6686030B2/ja active Active
- 2016-01-15 EP EP16703662.3A patent/EP3245756B1/fr active Active
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BR112017015141B1 (pt) | 2023-12-26 |
JP2018507606A (ja) | 2018-03-15 |
US20160211903A1 (en) | 2016-07-21 |
WO2016115498A1 (fr) | 2016-07-21 |
KR20170104469A (ko) | 2017-09-15 |
JP6686030B2 (ja) | 2020-04-22 |
KR102586657B1 (ko) | 2023-10-06 |
CN113630231A (zh) | 2021-11-09 |
BR112017015141A2 (pt) | 2018-01-30 |
US10122429B2 (en) | 2018-11-06 |
EP3245756A1 (fr) | 2017-11-22 |
CN107113151A (zh) | 2017-08-29 |
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